Loading machine control mechanism



May 28, 1935. N. D. LEVIN ET AL LOADING MACHINE CONTROL MECHANISM Filed May 8, 1930 5 Sheets-Sheet 1 .mfi v 2 May 28, I935. up. LEVIN El AL 2,002,951

LOADING MACHINE CONTROL MECHANISM Filed May 8, 1930 5 Sheets-Sheet 2 awmsi N. D. LEVIN ET AL.

LOADING MACHINE CONTROL MECHANISM Filed May 8, 1930 5 Sheets-Sheet 3 a W W n a w m 6% &

8, 1935- N. DLEVIN ET AL LOADING MACHINE CONTROL MECHANISM 5 Sheets-Sheet 4 Filed May 8, 1930 am IL ki Sh m il Q Q Al Edward-6 .624013, I

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5 Sheets-Sheet 5 May 28, 1 .35 N. D. LEVIN ET AL I LOADING MACHINE CONTROL MECHANISM Filed May 8, 1930 +m & M f ,5 NW Wd Patented May 28, 1935 UNITED STATES LOADING MACHINE CONTROL Nils D. Levin and Edward G. Lewis, Columbus, Ohio, assignors to The Jeflrey Manufacturing gohrinapany, Columbus, Ohio, a corporation of Application May 8, 1930, Serial No. 450.741 I 18 claims, (or. 180-9.2)

The present invention relates to a hydraulic control system herein conceived of as applied to a loading machine embodying a motive support in the form of a tractor oi .the endless tread 5 type. Since theloading mechanism per se forms no part of the present invention only the hy draulic system is shown and of this system the invention relates particularly to that part having to do with the steering of the tractor.

The tractor drive is effected through a pair of diil'erential mechanisms, specifically planetary gearlngs, which include control bands simultaneously and equally or differentially tensionable to control the direction .of travel of the tractor. The tensioning of the bands is effected by cylinder and piston units which are in connection with a source of -fluid under pressure through a control valve forming a principal subject of the invention. The invention also in- 'cludes manually operable means. in addition to the hydraulically operated means, for tensioning the .bands.

Anembodiment oi the invention is shown by way of example, in the accompanying drawings, in which Fig. 1 is a plan view oi the tractor with parts removed and other parts broken away,

Fig. 2 is a section on line 2 2 of Fig. 1,

Fig. 3 is a section on line 3- '-3 of Fig. 2,

Fig. 3a shows a detail in section,

Fig. 4 is a section on line 4-4 oi Fig. 2,

Fig. 5 is a plan view oi valve mechanism for controlling the flow and distribution oi the hydraulic medium,

Fig. 6 is an end elevation of the mechanism of Fig. 5,

Fig. 7 is a section on line 1-1 of Fig. 5,

Fig. 8 is a section on line H of Fig. 7,

- Fig. 9 is a partial section on'line 8-8 01! Fig.

40 '7 with the parts in diiierent relative position,

Fig. 10 is a partial section on line 8-8 of Fig.

7 with the parts in still another relative position,

Fig. 11 shows in perspective a plug forming part the control valve, and

. Fig. 12 is a diagram oi-the entire hydraulic system.

Referring to the drawings, the tractor or loading machine chassis is designated as a whole, Fig. 1, by the reference character A, and includes a pair of box-like parallel side members I and 2 interconnected below their upper extremities by means 01' a substantially horizontal frame casting 3. Parallel plates 4 and secured to the upper inner margins oimembers I and 2' define a channel adapted to receive a main conveyor frame, not shown.

A motor I, Figure 1, is arranged on casting 3 with its armature shaft in parallel relation to elements I and 2. An armature pinion 8 engages a bevelled gear 8 keyed to a drive shaft III, Figure 2, supported in journal bearings II and I2 oi the main frame casting 3. Fixed to the opposite ends of drive shaft III are pinions I3 and I4 constituting the sun gears of planetary 10 trains generally indicated at I5 and I6.

The planetary mechanisms I5 and I6 are 1 identical and unit I5 is shown in detail in Figures 3 and 4 to which reference will now be made, in addition to Figure 2. 15

A drum I1 is mounted for free rotation on' a bushing concentric with main drive shaft III and has keyed theretoan internalring gear I8 journalled on a bushing concentric with a driven shaft I8, which is'coaxial with shalt III. A sleeve 20 20 keyed to shaft I9 is provided with a radial flange 2I carrying a plurality of stud shafts 22 on which are rotatably mounted pinions 23 meshing with the teeth 01' pinion I3 and ring gear I8.

Half circle bands 24 and 25 encircle drum II 25 and each is provided at one end with 9. lug 26 or 21 connected by means of pins 28 and 29 to a supporting lug 30 mounted on a pin 3I supported by a casting 32 bolted to the main frame casting 3, this mounting preventing rotation 01 30 the bands with the drum. To the other end of band 25 is fixed. 2. lug 33 to which is pivotally connected one end of a lever 34by means 01' a pin 35, lever 34 being of twin arm. form, as may be most clearly seen in Figure 1, with one arm 35 positioned at each side of lug 33.

To the other end of band 24 is fixed 9. lug 36 to which is pivoted, by means of a pin 31, a threaded socket member 38 in which is engaged the threaded end of a screw 39, whose other 40 headed end is supported on a yoke 40 pivotally mounted between the arms of lever 34 adjacent pin 35.

A roller H is supported between the free ends of lever 34 and rests on the upper plane face of a piston 42 reciprocable in a cylinder 43, the piston and cylinder constituting a band operating jack. To the medial portion 01 lever 34 is pivotally secured by means or a pin 44, arod 45 influenced by a compression spring 46 to hold 50 roller 4I against the end of piston 42. It will be obvious from the described linkage that elements 45 and 46 constitute release means for bands 24 and 25, yleldably opposing oscillation of lever 34 due to movement of, piston 42 (which In case of failure of the hydraulic mechanism, manual means are provided .for the tightening of bands 24 and 23. A pairof triangular plates 41 and 43, Figures 3 and 4, are pierced at one pair of their registering apices to receive a bolt 43 extending between a pair of ears, one of which is shown at 33, Figure 3, fixed to the casting in which cylinder 43 is formed. At another pair of their spices, plates'41 and 43 carry a roller 31 engaged under lever 34, while at their remaining pair of spices the plates have pivoted thereto, through a pin 32, a link 33. At its other end, link 33 is connected through a'pin 34 with an arm 33 fixed to a hollow rock shaft 33 to the outer end of which, at the control side of the machine is fixed a hand lever 31, Figure 30. By moving the lever to rock shaft 33 in a clockwise direction, plates 41 and 43 are rocked in a counter-clock-wise direction to cause the roller 31 to abut behind lever 34 and swin the. latter so that the brake bands are tensioned. It will be noted that piston 42 and roller 41 are merely in abutting engagement with lever 34 so that actuation of one of them leavesthe other entirely A rock shaft 31 has rigidlysecured thereto "an arm similar to arm 33 of Figure 4 connected with means to effect the manual operation of the bands associated with planetary gearing 13, shaft 31 being disposed within hollow shaft 33. Shaft 31 projects beyond the outerend of shaft 33 and has fixed thereto an operating lever 33, Figure 3c. Itwill be understood that gearing 13 is provided with hydraulic operating means identical with those described with reference to gearing 13.

Shaft 13, Figure 2, has cutin its outer endthe teeth of a pinion 33'meshing with a spur gear 33 fixed to the hub of a sprocket 33 which is mounted on a stud shaft 31 fixedto the outer wall of member 1, the sprocket engaging an endless tractor chain 32 to drive the latter. From Figure 1 it will be seen that left hand chain 32 is adapted to be trained overvan idler sprocket 33, the lower run of the chain being supported on rollers 34 and 33. As a matterof convenience, the sprocket drive elements at each side of shaft 13 have been given the same reference numerals From the above description it will be seen that I have provided a chassis specifically in the form of an endless tread tractor maneuverable'in any plication of restraining force to the two drums,

the tractor will move forward in a straight line,

while difierential application of pressure will cause the tractor to turn in the desired direction and at the'desired angle.

In addition to the band operating Jacks above described, the machine including a-pair o! Jacks 113 and 123, Fig. 1, pivoted to the front end of the. tractor, these jacks being provided-for the purpose of vertically swinging a forward gathering section of a main conveyor, not shown. A

further Jack 214 includes a piston 213 connected through rope gearing 223 to a discharge conveyor 133 to swing the latter about a vertical axis. An-

other pair of jacks 133 and 133, which appear onlydiagrammatically in Fig. 1 1 serve to swi e an end section of the discharge conveyor about a horizontal Fo'r supplying pressure to the various hydraulic jacks, a pump mechanism 233 which draws from a reservoir or tank, not shown, is mounted on the main frame casting 3 and is connected to the motor '1 through a pinion 233 meshing with,

bevel gear 9, the pinion being 'fixedo'n ashaft on which is also fixed a pinion 213 meshing with a spur gear 211 fixed on the shaft of the pump mechanism. A valve mechanism for controlling the supply and the distribution of the hydraulic medium to the jacks is shown indetail in Figures 5 to 10. The valve mechanism comprises a base 213 on which is mounted a block 214 provided with a plurality of bores 213, 213, 211 and 213 in which are disposed valve plugs 213, 233, 231 and 232.

An'inlet port 233 communicates with bore 213 and a through passage to an outlet port 234 is provided through bores 283, 233, 281 and-233.

Substantially oppositely disposed bores 233 and 233 connect bore 213 with supply pipes 231 and 232 and similar bores 233 and 234 connect bore 213 with supply lines 233and 233, a shut-off valve 231 being provided in the latter. A bore 233 connects bore 211with supply pipe 233 and bores 333 and 331 connect bore 213 with supply lines 332 and 333. Base 213 is provided with drain pockets beneath plugs 213, 233 and 231 which lead to a sump 334;

Plugs 213 and 233 maybe of identical form and as here shown are provided respectively with forwardly flared through passages 333 and 333, and with longitudinal grooves 331, 333 and 333, 313. Plug 231 is provided with an angular recess 311 and with a longitudinal groove 312.

Plug 232 differs from the remaining plugs in that it is not only revoluble, but is vertically displaceable' in bore 213. In its lowermost position, a .forwardly flared through passage 313 therein is in the plane of passages 231 and 233. so as to connect the two as shown in Figure 8 and when in this position lateral recesses 314 and 313 overlie bores 333 and 331 so that the latter are in communication with outlet 234 over the top of wall 313. Recesses 314 and 313 have downward extensions in the form of grooves 314 and 313' which, as here shown. extend to the bottom of plug 232. In an intermediate axially displaced position of plug 232, an angular recess 311 therein is adapted to connect passage 231 with bores 333 and 331, Figure 10. In the uppermost position of plug 282, a through passage 313 therein, Figure 9, connects passages 231 and-233, imperferate walls of the plug overlying and blocking bores 333 and 331. a The stem of plug 213 which is passed through suitable packing means is provided with an operating handle 313 having a. limited oscillatory movement between abutments 323 and 321, Figure '5. The stem of plug 233 is provided with an operating handle 322 having integral with its attachment boss, a rectangularly extending am 323 whose oscillatory movements are limited by abutments 324 and 323. The control handle 323 for plug 231 is similarly provided with an arm 321 whose movements are limited by abutments 323 and'323. I

A bracket 333 fixed to the valve body 214 has an angular portion 331 overlying bore 213 and provided with a coaxial aperture through which the stem 232' of plug 232 passes; A fianged pivot member 332 is secured tothe outer face.of support 331 with its flanges overlying the margins of slot 338, Figure- 7, in which is engaged a pin 339 supported between stanchions 340 and 341 fixed on plate 333. Movement of lever 331 in horizontal planes thus acts to rotate plug 282, while movement of the lever in vertical planes causes it to pivot about pin 338 to reciprocate plug 282 and selectively bring passage 3I3,recess 311 or passage 318 thereof into register with passage 281 of the valve body. Pivot member 332 is provided with shoulders 342 and 343 adapted to cooperate with shoulders 344 and 345 of plate 333 to limit the swinging movement of lever 331 in horizontal planes.

Referring to Figure 11, pump mechanism 268 has its delivery port in connection with inlet 283 of the valve body by means of apipe 346, the outlet of the valve body being in connection with the pump mechanism by means of a return line 341. Sump 304 is in connection with the fluid reservoir by means of a return line 348. Pipe 281 leads to one end of cylinder 214 .while pipe 292 leads to the other end of the cylinder. Pipe 295 leadsthrough a branch line 348 to the lower ends of cylinders 118 and 120, while pipe 296 through shut-ofi valve 281, an escape valve 350 and a branch line. 351, leads to the upper ends of cylinders 118 and 120. Pipe 302 leads to the lower end of cylinder 43 associated with planetary position shown in Figures 7 and 8, the hydraulic medium, ordinary oil, will merely be circulated through the valve block, entering through line 346 and returning through line 341. If now, handle 319 be moved in a clock-wise direction,

inlet 283 will be placed in connection with bore 289, groove 308 will be placed in connection with bore 280, and the rear end of passage 305 will be blocked by an imperforate wall portion of pass through line 281- to the forward end of cylinder 214 moving piston 215 rearwardly and thus swinging the delivery conveyor 188. The fluid to the rear of the piston will be exhausted through line 282, bore 280 and groove- 308 to .sump 304, whence it will return through line 348 to the reservoir. It will be obvious that movement of lever 318 in a counter-clockwise direction will cause a reverse supply and exhaust of the fluid as regards cylinder 214.

Similarly, upon rotation of plug 280 in a, clockof the conveyor will be sumciently heavy so it will not tend'to climb the material and thus may be entirely controlled by the supply of fluid to,

and its exhaust from the lower ends only of cylinders 118 and 120. Under these circumstances, lines 288 and 351 may be drained, valve 281 closed, and valve 350 opened so that pressures developed in the upper ends of cylinders 118 and 120 will be relieved. Under these conditions, when line 295 is being drained through groove 308 of plug 280, through passage 306 will be blocked .due to the fact that its rear end willbe closed by an imperforate wall of bore 218.

Since thus there will be no escape forthe fluid supplied by the pump mechanism, the latter is provided with a relief valve in the well known manner.

Upon rotation of plug 281 in clockwise direction the fluid supply will be connected through line 288 and branch line 354 to the lower end of cylinders 188 and to elevate the rear end of the delivery conveyor, which lowers by gravity when the plug is turned in a counter-clockwise direction to bring groove 312 in register with bore 298. It will be evident that if desired, this plug ures '7 and 8, the hydraulic medium is passing freely through passage 313 and lines 302 and '303 are draining through recesses 314 and 315.

Upon a clockwise rotation of plug 282, the prestor-clockwise direction connects'the fluid sup-- ply to cylinder 43 associated with planetary gearing 18. If plug-282 is lifted to the intermediate position shown in Figure 10, fluid is supplied to both of cylinders 43. When the plug is in its upper limit position, shown in Figure 9, the fluid supply freely traverses the plug through passage 318 while the side walls of the plug block bores 300 and 301 and lock the fluid in lines 302 and 303, thus retaining the planetary bands in their adjusted position.

In the position of plug 282 shown in Figure 10, pressure is supplied to both of lines 382 and 303 so that the transmissionbands are simultaneously operated. By turning the plug in either direction, one or the other of grooves 314'- and 315' is brought over port 300 or 301 so that fluid escape from one ofthe lines is permitted through the groove while pressure is maintained in the other line. With the plug in the position shown in Figure 9, both ports 300 and 301 are completely blocked. However, if the plug is rotated inone direction or the other, one of the ports may be maintained blocked and one or the other of grooves 314' and 315' brought into communication with the other port so that fluid escape through the latter is permitted.

With plug282 in the position shown in Figure, 8, it may beturned, for example, in counterclockwise direction a certain angular extent while still maintaining exhaust through groove or recess 314. If the plug is now lifted to the position of Figure- 10, the plug body will still cover port 300, whereas port 301 is in communication with passage 281. This operation may be reversed for sole supply through p rt 380. -In this manner the plug may be moved directly to its intermediate position from its lower pofltion to supply pressure directly to one or the other of v the jacks without passing through an interme pair diate position wherein pressure is supplied to both of the Jacks as would be the case if the plug were liited prior to its being turned.

it will be understood that while a specific embodiment of the invention has been shown and described, the invention is by no means limited to details of the disclosure and its scope is determined in the following claims.

- We claim:

l.' In a machine of the class described comprising a pair of traction elements, and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a sourceof fluidunder forced pressure, and a valve for eflecting alternate or simultaneous supply of the hydraulic medium to said band operating means or for blocking the supply to said band operating means I simultaneously, said valve comprising a casing and a plug rotatable and axially reciprocable in said casing, the blocking position of the valve being reached by axial displacement of the plug from its supply position.

. 2. In a machine of the class described comprising a pair of traction elements, and-steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic pressure, and a valve for eiiecting alterhate or simultaneous supply of the hydraulic medium to said band operating means, said valve including a housing having a pair of opposed ports" of which one constitutes a waste port and the other an inlet port in connection with the source, said casing having a second pair of opposed ports interposed between the first pair of ports, and a conduit connecting each of said second pair of ports with one of said hydraulically actuatable means, and a rotatable plug in said casing, said plug being provided with a.

through opening and lateral recesses adapted in one angular position of the plug to' respectively connect the first-mentioned pair of easing ports and to connect said second ports with said waste port, said through openinghaving a flared portion adapted in other angular positions of the plug to connect either one of said second pair of ports with said inlet port. the one of said second ports not so connected being in exhaust relation with one of said lateral recesses. I

a 3. In a machine of the class described comprising a pair of traction elements, and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic pressure, and a valve for eilecting alternate r simultaneous supply of the hydraulic medium to said band operating means, said valve including a housing havinga pair oi opposed ports of which one constitutes a waste port and the'other an inlet port in connection with the source, said casing having a second pair of opposed ports. interposed between the first pair of ports, and a conduit connecting each of said second pair of ports with one of said hydraulically actuatable means, and a rotatable and axially displaceable plug in said casing. said plug being ded with a through p ning and lateral recesses adapted in one angular position of the plug to respectively connect the first-mentioned of casing-ports and to connect said second ports with said waste port, said through opening having a flared portion adapted in other angular positions of the plug to connect either one of said second pair of ports with said inlet port, the one of'said second ports not so connected being in exhaust relation with one of said lateral combination of separate hydraulically actuatable means for operating said hands, ,a source of hydraulic pressure, and a valve for eil'ecting alterhate or simultaneous supply of the hydraulic medium to said band operating means, said valve including a housing having 'a pair of opposed ports of which one constitutes a waste port and the other an inlet port in connection with the source, said casing having a second pair of opposed. ports interposed between the first pair of ports and a conduit connecting each of said second pair of ports with one of said hydraulically actuatable means, and a rotatable and axially displaceable plug in said casing, said plug being provided with a through opening and lateral recesses adapted in one angular position of'the plug to respectively connect the first-mentioned pair 1 of casing ports and to connect said second ports with said waste port, said through opening having a flared portion adapted in other angular positions of the plug to connect either one of said second pairof ports with said inlet port, the one of said second ports not so connected being in exhaust relation with one of said lateral recesses, said plug having a transverse groove adapted in an axially displaced position of the plug to simultaneously connect said second pair of ports with the inlet port and a second through opening adapted in another axially displaced position of the plug to connect the first-mentioned pair of ports while the body of the plug blocks said second pair of ports.

5,.In a machine of the class described comprising a pair of traction elements, and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of fluid constantly under forced pressure, and valve means for effecting alternate or simultaneous supply of the hydraulic medium to said band operating means or for diverting the supply and preventing escape of the medium from one or both of said band operating means upon interruption of supply thereto.

6. In a machine of the class described comprising a pair of traction elements, and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination ofseparate hydraulically actuatable means for operating said bands, a source of fluid constantly under forced pressure, and valve .said ports or to cut oil the supply through one combination of separate hydraulically actuatable means for operating said bands, a source oi hydraulic pressure, a valve comprising a casing and a plug, a conduit connecting the source and an inlet opening in the valve casing, conduits connecting said hydraulically actuatable means respectively with outlet ports in said casing, said plug being adjustable to simultaneously close the outlet ports to maintain fluid pressure in said band operating means and said plug being longitudinally displaceable to admit fluid simultaneously to said outlet ports.

8.. In a machine of the class described comprising a pair of traction elements, and steering mechanism comprising a drum'and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic pressure, a valve comprising a casing and a plug, a conduit connecting the source and an inlet opening in the valve casing, conduits connecting said hydraulically actuatable means respectively with outlet ports in said casing, said plug being operable to simultaneously admit fluid from the casing inlet to both outlets and longitudinally displaceable to-cut off supply to'said outlet ports and to permit the conduits connected thereto to exhaust therethrough.

9. In a machine of the class described, comprising a pair of traction elements, and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic fluid under forced pressure; a single valve means having an inlet for said fluid, an escape opening, and a pair of outlet ports; and conduits connecting said outlet ports with said hydrauli- -cally actuatable means respectively, said valve band associated with each traction element, the

' combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic fluid under forced pressure; a single valve means having an inlet for said fluid, an escape opening, and a pair-of outlet ports; and conduits connecting said outlet ports with said hydraulically actuatable' means respectively, said valve means comprising a movable control member adjustable to, effect simultaneous supply through.

said ports or to cut ofi the supply through one of said ports while maintaining the supply through the other of said ports, said control member being also adjustable to block both of said ports to-hold fluid in said conduits.

11. In a machine of the class described, comprising' a pair of traction elements, and steering mechanism comprising. a drum and cooperating band associated with-each traction element, the combination oi separate hydraulically actuatable means for operating said hands. a source of hydraulic fluid under forced pressure; a single valve means having an inlet for said fluid, an escape opening, and a pair of outlet ports; and conduits connecting said outlet ports with said hydraulically actuatable'means respectively, said'valve means comprising a movable control member adjustable to eilect simultaneous supply through of said ports while maintaining the supply through the other of said ports, said control member being also adjustable to cut off the supply through both of said ports and to effect fluid escape from either one of said conduits.

12. In a machine'of the class described comprising a pair of traction elements and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic fluid under pressure, a valve including a casing and a rotary plug in said casing, said plug having a transverse groove, an inlet port and a pair of outlet ports in said casing in the plane oif s'aid groove, a conduit connecting said source of pressure and said inlet port, conduits connecting said outlet ports and said hydraulically actuatable means, respectively, the disposition of said ports relative to said groove being such that in the normal position of the plug the inlet port is in connection with said outlet ports through said groove, an exhaust port in said casing, said plug having exhaust provisions so arranged that upon rotation of the plug in either direction one of said outlet ports is placed in connection with said exhaust port while the other outlet port is maintained in connection with said inlet port.

13. In a machine of the class described comprising a pair of traction elements and steering mechanism comprising a drum and cooperating band associated with each traction element, .the combination of separate hydraulically actuatable vmeans for operating said bands, a source oi! hydraulic fluid under pressure, a valve including a casing and a rotary plug in said casing, said plug having a transverse groove, an inlet port and a pair of outlet ports in said casing in the plane of said groove, a, conduit connecting said source of pressure and said inlet port, conduits connecting said outlet ports and said hydraulically actuatable means, respectively, the disposition of said ports relative to said groove being such that in the normal position of the plug the inlet port is in connection with said outlet ports through said groove, an exhaust port in said casing, said plug having a pair oiaxially extending grooves so arranged that upon rotation of the plug in either direction one of said outlet ports is placed in connection with said exhaust port through one of said last named grooves while the other outlet port is maintained in connection with said inlet port.

connecting said source or pressure and said inlet port, conduits connecting said outlet ports and said hydraulically actuatable means, respectively, the disposition of said ports relative to said groove being such that in the normal position of the plug, the inlet port is in connection with said outlet ports through said groove, an exhaust port in said casing, said plug having exhaust provisions' so arranged that upon rotation of the plug in either direction one of said outlet ports is placed in connection with said exhaust while the other outlet port is maintained in connection with said inlet port, axial displacement of said plug bringin solid surfaces thereof in blockins relation to said outlet ports.

15. In a machine of the class described comprising a pair oi! traction elements and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said hands, a source of hydraulic fluid under pressure, a valve including a casing and a rotary and axially reciprocable plug in said casing, said. plug having a transverse groove, an inlet port and a pair of outlet ports in said casing in the plane of said groove, a conduit connecting said source of pressure and said inlet port, conduits connecting said outlet ports and said hydraulically achiatable means, respectively, the disposition or said ports relative to said groove being such that in the normal position of the plug, the inlet port is inconnection with said outlet ports through said groove, an exhaust port in said casing, said plug having exhaust provisions so arranged that upon rotation of the plug in either direction one of said outlet ports is placed in connection with said exhaust port while the other outlet port is maintained in connection with said inlet port, axialdisplacement of said plug bringing solid surfaces thereof in blocking relation to said outlet ports and simultaneously bringing a through opening in the plug into position to connect said inlet port and said exhaust -16. In a machine of the class described comprising a pair of traction elements and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said bands, a source of hydraulic iluid under pressure, a valve including a casing and a rotary and axially reciprocable plug in said casing, said plug having a transverse groove, an inlet port and a pair of outlet ports in said casing in the plane, of said groove, a conduit connecting said source dipreasure and said inlet port, conduits connecting said outlet ports and said hydraulically actuatable means, respectively, the disposition of said ports relative to said groove being such that in the normal position 0! the plug,

the inlet port is in connection with said outlet ports through said groove, an exhaust'port in saidcasing,saidplughavingapairofaxially extending grooves so arranged that upon rotation oi the plug in either direction one c! said outlet ports is placed in connection with said exhaust port through one of said last named grooves while. the other outlet port is maintained in connection with said inlet port, axial displacement of said plugbrlngins saidintoregisterwithsaid outlet ports to permit the latter to exhaust simultaneously.

17. In a machine of the'class described-comprising a pair of traction elements and steering mechanism comprising a drum and cooperating band associated with each traction element, the combination of separate hydraulically actuatable means for operating said hands, a source of hydraulic fluid under pressure, a valve including a casing and a rotary and axially reciprocable plug in said casing, said plug having a transverse groove, an inlet port and a pair of outlet ports in said casing in the plane of said groove, a conduit connecting said source of pressure and said inlet port, conduits connecting said outlet ports and said hydraulically actuatable means, respectively, the disposition of said ports relative to said groove being such that in the normal position oi the plug, the inlet port is in connection with said outlet ports through said groove, an exhaust port in said casing, said plug having a pair of axially extending grooves so arranged that upon rotation of' the plug in either direction one of said outlet ports is placed in connection with said exhaust port through one of said last named grooves while the outlet port is maintained in connection with said inlet port, axial displacement of said plug bringing said grooves into register with said outlet ports to permit the latter to exhaust simultaneously and simultaneously bringing a through opening in the plug into position to connect said inlet port and said exhaust port.

18. In a machine of the class described com-- prising a pair of traction elementsand steering mechanism comprising a drum and cooperating bandassociated with each traction element, the combination oi separate hydraulically actuatable means for operating said bands, asource of hydraulic fluid under pressure, a valve including a casing and a plug rotary and axially reciprocable therein, said casing having an inlet port and outlet ports in the same transverse plane of the plug and also having anexhaust opening, said plug tain angular extent in the first mentioned posiition being'directly axially displaceable to the .seoondmentioned axial position to connect said inlet port and one only of said outlet ports through said transverse groove, a conduit connecting said source and said inlet port, and conduits connecting said outlet ports and said hydraulically actuatable means, respectively.

me 15. mm. snwsnn o. Laws,

of the plug, the pl s upon being turned to a cer- 

